JP6831198B2 - Industrial robot - Google Patents

Description

The present invention relates to an industrial robot.

The industrial robot of Patent Document 1 is provided with a swivel base that can be swiveled above a base that is fixed to a floor surface or the like. A plurality of arms are connected in series on the upper part of the swivel. Each arm can be swiveled with respect to a member on the fixed side (base side). A work tool fixing member and a welding torch as a work tool are attached to the arm on the most tip side. Further, the industrial robot of Patent Document 1 is provided with a power cable for supplying electric power to the welding torch.

Japanese Unexamined Patent Publication No. 2011-152591

In an industrial robot such as Patent Document 1, an opening is provided in the housing of the arm, and a power cable for supplying electric power to a work tool is inserted through the opening, so that a part of the power cable is inserted inside the arm. May be extended to. In such an extension mode of the power cable, the power cable slides with the opening edge of the opening in the housing as the arm turns. Therefore, the movement of the power cable cannot smoothly follow the turning motion of the arm, and the power cable may move later than the turning motion of the arm. If such a situation occurs, for example, the power cable may move with a delay even though the arm has completed turning and reached a predetermined stop position, and the arm may vibrate unintentionally with the movement. There is.

In order to solve the above problems, the present invention provides an industrial robot including a fixed side member, a swivel member rotatably connected to the fixed side member, and a power cable for supplying electric power to a work tool. At least one of the fixed side member and the swivel member is provided with a housing portion provided with an opening through which the power cable is inserted, and the opening edge of the opening is provided with an outer surface of the housing portion. It is characterized in that an opening covering member having a smaller surface roughness is provided.

According to the above configuration, the power cable inserted through the opening of the housing portion slides with the smooth opening covering member having a small surface roughness when the swivel member swivels. Therefore, the resistance when the power cable moves is smaller than that when sliding on the opening edge of the housing portion where the opening covering member is not provided. As a result, when the swivel member turns, the power cable can easily move smoothly, and the delay in the movement of the power cable with respect to the swivel movement of the swivel member can be suppressed. That is, the followability of the movement of the power cable to the turning movement of the turning member is improved.

In the above invention, the opening covering member may be made of a material softer than the material constituting the housing portion.
According to the above configuration, since the material of the opening covering member is relatively soft, it is possible to suppress damage to the power cable as compared with the case where the power cable slides on the opening edge of the housing portion.

In the above invention, the housing portion has a cylindrical shape, the opening covering member has an annular shape, and a cylindrical sleeve member covering the inner peripheral surface is attached to the inner peripheral surface of the housing portion. The inner diameter of the opening covering member and the inner diameter of the sleeve member may be the same.

According to the above configuration, there is no step between the opening covering member and the sleeve member, and the entire inner diameter of the opening covering member can be used as the movable range of the power cable. Therefore, unnecessary bending of the power cable is suppressed.

In the above invention, the opening covering member includes an annular plate-shaped annular plate portion that covers an end surface of the housing portion on either side in the axial direction, and an annular plate portion that projects axially from the annular plate portion and the annular ring. An annular protrusion extending along the inner peripheral edge of the plate portion may be provided, and a corner portion on the protruding tip side of the annular protrusion and on the inner side in the radial direction may have a chamfered shape.

According to the above configuration, when the power cable comes into contact with the corner portion on the protruding end side of the annular protrusion, it is possible to prevent the power cable from contacting the annular protrusion in a narrow area, and the power cable can be ringed. It can be brought into surface contact with the corners of the protrusions. Therefore, it is possible to prevent the power cable from being worn.

According to the present invention, the ability to follow the movement of the power cable with respect to the turning movement of the turning member is improved.

Overall view of the welding robot. The perspective view of the connecting part of the 4th arm and the 5th arm. FIG. 3 is a cross-sectional view of a connecting portion between the fourth arm and the fifth arm. Top view of the opening covering member. FIG. 4 is a sectional view taken along line 5-5 in FIG.

(Overall configuration of welding robot)
An embodiment in which the present invention is applied to an articulated welding robot as an industrial robot will be described. First, the overall configuration of the welding robot will be described.

As shown in FIG. 1, the welding robot includes a base C1 fixed to a floor surface, a wall surface, or the like. A swivel base C2 is provided above the base C1 of the welding robot so that it can swivel around the first swivel axis J1. A first arm C3 is connected to the upper part of the swivel base C2 so as to be swivelable about a second swivel axis J2 orthogonal to the first swivel axis J1. A second arm C4 is connected to the tip of the first arm C3 so as to be able to swivel around a third swivel axis J3 orthogonal to the second swivel axis J2. A third arm C5 is connected to the tip of the second arm C4 so as to be rotatable around a fourth turning axis J4 orthogonal to the third turning axis J3.

As shown in FIG. 1, the fourth arm C6 is connected to the tip of the third arm C5 so as to be rotatable around the fifth turning axis J5 orthogonal to the fourth turning axis J4. The fifth arm C7 is connected to the tip of the fourth arm C6 so as to be rotatable around the sixth turning axis J6 orthogonal to the fifth turning axis J5. A work tool fixing member C8 is connected to the tip of the fifth arm C7 so as to be rotatable around the seventh rotation axis J7 orthogonal to the sixth rotation axis J6. A welding torch C9 is fixed to the work tool fixing member C8 as a work tool. The welding torch C9 rotates integrally with the work tool fixing member C8.

As shown in FIG. 1, the welding robot is provided with a power cable PC for supplying electric power to the welding torch C9. The power cable PC extends from a welding power supply device (not shown) and reaches the welding torch C9 at the tip. The power cable PC is fixed to the outer surface of the swivel base C2 and the outer surface of the first arm C3 with a stay S. The tip side of the power cable PC with respect to the first arm C3 is pulled into the inside of the first arm C3 through an opening provided in the housing of the first arm C3. The power cable PC extends from the inside of the first arm C3 to the inside of the second arm C4, and is drawn out to the outside of the second arm C4 through an opening provided in the housing of the second arm C4.

As shown in FIG. 1, the power cable PC is fixed to the outer surface of the second arm C4 and the outer surface of the third arm C5 by stays S. The tip side of the power cable PC from the fixed portion to the third arm C5 extends along the outer surface of the fourth arm C6 and reaches the fifth arm C7 side. The power cable PC is extended so as to penetrate the fifth arm C7, and its tip side is connected to a welding torch C9 fixed to the work tool fixing member C8.

(Structure of connecting part between 4th arm C6 and 5th arm C7)
Next, a more specific configuration of the connecting portion between the fourth arm C6 and the fifth arm C7 will be described. When paying attention to the relationship between the 4th arm C6 and the 5th arm C7, the 4th arm C6 located closer to the base C1 corresponds to the "fixed side member" and can be swiveled with respect to the 4th arm C6. The fifth arm C7 corresponds to a "swivel member".

As shown in FIG. 2, the fourth arm C6 is provided with a substantially square columnar arm body 11 on the tip end side thereof. As shown in FIG. 3, a protruding portion 11a projecting in a circular shape is provided on the side surface of the arm main body 11. The central axis of the protruding portion 11a is the sixth turning axis J6. The arm body 11 is made of an aluminum alloy. The rotating portion 21 of the fifth arm C7 is connected to the protruding portion 11a of the arm main body 11.

As shown in FIG. 2, the rotating portion 21 has a columnar shape as a whole. A circular recess 21a is provided on the surface of the rotating portion 21 on the arm body 11 side. The inner diameter of the recess 21a is substantially the same as the outer diameter of the protrusion 11a in the arm body 11. The recess 21a of the rotating portion 21 is rotatably fitted to the protruding portion 11a of the arm body 11. The rotating portion 21 is rotatable around the sixth turning axis J6 with respect to the arm body 11 of the fourth arm C6. On the outer peripheral surface of the rotating portion 21, a square columnar connecting portion 22 projects outward in the radial direction. A housing portion 25 is provided on the side surface of the connecting portion 22 on the side of the fourth arm C6 opposite to the arm main body 11.

As shown in FIG. 3, the housing portion 25 has a cylindrical shape as a whole. Specifically, the housing portion 25 is formed with a through hole 26 having a circular cross section with the seventh turning axis J7 as the central axis. The housing portion 25 has a first opening 26a on the end surface on the side opposite to the work tool fixing member C8 side (upper side in FIG. 3) in the 7th swivel axis J7 direction, and works in the 7th swivel axis J7 direction. A second opening 26b is provided on the end surface of the tool fixing member C8 side. Further, among the end faces of the housing portion 25 on the work tool fixing member C8 side, the peripheral edge of the second opening 26b has a shape recessed in a circular shape. The housing portion 25 is located on the work tool fixing member C8 side (lower side in FIG. 3) with respect to the sixth turning axis J6. As shown in FIG. 2, a power cable PC is inserted through the through holes 26 (first opening 26a and second opening 26b) of the housing portion 25, and the power cable PC axially rotates the housing portion 25. It penetrates.

The rotating portion 21, the connecting portion 22, and the housing portion 25 of the fifth arm C7 described above are all made of an aluminum alloy. Further, in the fifth arm C7, the rotating portion 21 rotates around the sixth turning axis J6, so that the housing portion 25 rotates around the sixth turning axis J6 together with the connecting portion 22.

As shown in FIG. 3, a sleeve member 31 that covers the inner peripheral surface 25a is provided on the inner peripheral surface 25a (the peripheral surface of the through hole 26) of the housing portion 25. The sleeve member 31 includes a cylindrical portion 32 having a cylindrical shape, and a flange portion 33 extending radially outward from the edge of the cylindrical portion 32. The outer diameter of the cylindrical portion 32 is substantially the same as the inner diameter of the through hole 26 of the housing portion 25, and the outer peripheral surface of the cylindrical portion 32 is in surface contact with the inner peripheral surface 25a of the housing portion 25. The dimension of the cylindrical portion 32 in the central axis (7th turning axis J7) direction is slightly shorter than the dimension of the through hole 26 of the housing portion 25 in the central axis direction.

As shown in FIG. 3, the flange portion 33 of the sleeve member 31 is fitted into a recessed portion of the end surface of the housing portion 25 on the work tool fixing member C8 side, and is on the second opening 26b side of the housing portion 25. Is in surface contact with the end face of the housing. Therefore, the sleeve member 31 covers the vicinity of the opening edge of the second opening 26b of the housing portion 25 in the flange portion 33. Further, the sleeve member 31 covers substantially the entire inner peripheral surface 25a of the housing portion 25 except for a part on the first opening 26a side in the cylindrical portion 32.

The sleeve member 31 configured as described above is made of an aluminum alloy. Further, the inner peripheral surface of the cylindrical portion 32 of the sleeve member 31 is polished so that the surface roughness is smaller than that of the outer surface of the housing portion 25.

As shown in FIG. 3, a plurality of bolt holes are provided in the flange portion 33 of the sleeve member 31, and are fixed to the housing portion 25 by bolts B1 inserted through the bolt holes.

As shown in FIG. 3, an annular sealing member 35 is attached to an end portion of the housing portion 25 on the first opening 26a side of the outer peripheral surface of the cylindrical portion 32. The sealing member 35 seals a gap between the outer peripheral surface of the cylindrical portion 32 and the inner peripheral surface 25a of the housing portion 25, and moisture, dust, or the like enters the internal space of the wall of the cylindrical portion 32 through the gap. It prevents foreign matter from entering.

In FIG. 3, the internal structure of the arm body 11 of the fourth arm C6 and the internal structure of the rotating portion 21 and the connecting portion 22 of the fifth arm C7 are not shown. Further, regarding the internal structure of the housing portion 25 of the fifth arm C7, the portion other than the through hole 26 is not shown.

As shown in FIGS. 2 and 3, an opening covering member 40 forming an annular shape as a whole is provided at the opening edge of the first opening 26a in the housing portion 25. As shown in FIGS. 4 and 5, the opening covering member 40 includes an annular plate-shaped annular plate portion 41 and an annular protrusion 45 that projects axially from the annular plate portion 41.

As shown in FIG. 4, the outer edge shape of the annular plate portion 41 is such that a part of the circumference (the lower part in FIG. 4) is linearly connected. The outer diameter of the circumferential portion of the outer edge of the annular plate portion 41 is larger than the inner diameter of the first opening 26a in the housing portion 25. The inner edge of the annular plate portion 41 has a circular shape, and its inner diameter R2 is the same as the inner diameter R1 of the cylindrical portion 32 of the sleeve member 31. As shown in FIG. 5, the corner portion P1 on the inner peripheral edge of the annular plate portion 41 has a chamfered shape. In this embodiment, the corner portion P1 of the annular plate portion 41 has a so-called rounded chamfered shape (R shape).

As shown in FIG. 4, the annular plate portion 41 is provided with a bolt hole 42 that penetrates the annular plate portion 41 in the thickness direction. A plurality of bolt holes 42 (five in this embodiment) are arranged side by side in the circumferential direction of the annular plate portion 41. A virtual circle C that passes through the center of the width W of the annular plate portion 41 in the portion where the outer edge shape is circumferential in the circumferential direction of the annular plate portion 41 and is centered on the center of the annular plate portion 41. When drawn, each bolt hole 42 is provided radially outside the virtual circle C. As shown in FIGS. 2 and 3, a bolt B2 is inserted through each bolt hole 42 of the annular plate portion 41 of the opening covering member 40, and the opening covering member 40 is inserted into the housing portion 25 from the bolt B2. It is fixed.

As shown in FIGS. 4 and 5, the annular protrusion 45 of the opening covering member 40 projects in the central axial direction of the annular plate portion 41 (the front side of the paper surface in FIG. 4 and the lower side in FIG. 5). Further, the annular protrusion 45 extends in a circumferential shape along the inner peripheral edge of the annular plate portion 41. The inner diameter of the annular protrusion 45 is the same as the inner diameter R2 of the annular plate 41. The diameter R3 (outer diameter) at the outer outer edge of the annular protrusion 45 in the radial direction is substantially the same as the inner diameter of the first opening 26a in the housing portion 25. As shown in FIG. 5, the radial inner corner portion P2 on the protruding tip side (lower side in FIG. 5) of the annular protrusion 45 of the opening covering member 40 has a chamfered shape. In this embodiment, the corner portion P2 of the annular protrusion 45 has a so-called rounded chamfered shape (R shape).

The opening covering member 40 configured as described above is made of a synthetic resin softer than the aluminum alloy constituting the housing portion 25. In this embodiment, the opening covering member 40 is made of polybutylene terephthalate (PBT). Further, the surface roughness of the opening covering member 40 is smaller than that of the outer surface of the housing portion 25.

As shown in FIGS. 2 and 3, the opening covering member 40 is attached to the housing portion 25 so that the portion where the outer edge of the annular plate portion 41 is linear is located on the rotating portion 21 side. .. The annular plate portion 41 of the opening covering member 40 is in surface contact with the end surface of the housing portion 25 on the first opening 26a side. Further, the annular protrusion 45 of the opening covering member 40 is located inside the first opening 26a of the housing portion 25.

(Action and effect of welding robot)
The operation and effect of the welding robot configured as described above will be described by taking the operation when starting welding as an example. When the welding robot starts welding, the swivel base C2, the first arm C3 to the fifth arm C7, and the work tool fixing member C8 swivel so that the tip of the welding torch C9 is located at a predetermined welding start point. To do. Then, after the turning of the swivel base C2, the first arm C3 to the fifth arm C7, and the work tool fixing member C8 is completed, the welding robot waits for the start of welding for a predetermined waiting time. Wait for the shaking and the like caused by the turning of each of the above members to subside. After that, welding by the welding robot is started.

Here, in the above embodiment, as shown in FIG. 2, the distance between the sixth turning axis J6 and the first opening 26a of the housing portion 25 in the fifth arm C7 is relatively large in the direction of the seventh turning axis J7. Short to. Therefore, depending on the turning position of the fifth arm C7 with respect to the fourth arm C6, the power cable PC is pressed against the opening edge of the first opening 26a in the housing portion 25 with a considerable force.

Further, for example, when the fourth arm C6 turns, the power cable PC inserted into the through hole 26 of the housing portion 25 in the fifth arm C7 slides on the opening edge of the first opening 26a in the housing portion 25. It will move while moving. At this time, as described above, if the power cable PC is pressed against the opening edge of the first opening 26a with a considerable force, a large frictional force is generated between the two, which hinders the operation of the power cable PC. .. Therefore, the movement of the power cable PC cannot quickly follow the turning operation of the fourth arm C6, and the power cable PC may move with a delay after the fourth arm C6 finishes the turning operation. For example, if such a delay in the movement of the power cable PC occurs during the waiting time when the welding robot is waiting for the start of welding, the fifth arm C7 or the like unintentionally vibrates in response to the movement of the power cable PC. Therefore, a situation may occur in which the shaking of the fifth arm C7 has not subsided even though the waiting time has elapsed and welding is about to start. Therefore, in order to prevent such a situation from occurring, it is necessary to set a waiting time for waiting for the start of welding in consideration of the delayed movement of the power cable PC, which increases the waiting time.

In this regard, in the above embodiment, the opening edge of the first opening 26a of the housing portion 25 in the fifth arm C7 is provided with the opening covering member 40 having a surface roughness smaller than the outer surface of the housing portion 25 and being smooth. Has been done. Therefore, even if the power cable PC is pressed against the opening covering member 40 provided in the housing portion 25 with an appropriate force, the friction generated between the two is not so large, and the resistance when the power cable PC moves can be reduced. .. As a result, even when the fourth arm C6 is swiveled as in the above-mentioned example, the power cable PC can be easily moved smoothly, and the delay in the movement of the power cable PC with respect to the swirling operation of the fourth arm C6 can be suppressed. .. That is, the followability of the movement of the power cable PC with respect to the fourth arm C6 is improved.

Further, the power cable PC inserted through the through hole 26 of the housing portion 25 is placed inside the annular protrusion 45 of the opening covering member 40 as the fourth arm C6 and the fifth arm C7 rotate. It may also come into contact with the inner peripheral surface of the cylindrical portion 32 of the sleeve member 31. In the above embodiment, the surface roughness of the inner peripheral surface of the cylindrical portion 32 of the sleeve member 31 is reduced. Therefore, it is possible to suppress that the frictional force generated between the power cable PC and the cylindrical portion 32 reduces the followability of the movement of the power cable PC with respect to the turning operation of the fourth arm C6.

In the above embodiment, polybutylene terephthalate, which is softer than the aluminum alloy constituting the housing portion 25, is used as the material of the opening covering member 40. Moreover, the corner portion P1 of the inner peripheral edge of the annular plate portion 41 of the opening covering member 40 has a rounded chamfered shape. Therefore, even if the power cable PC is pressed or slid against the opening covering member 40 with an appropriate force, it is possible to prevent the power cable PC from being damaged.

Further, in the above embodiment, the inner diameter R2 of the annular plate portion 41 (annular protrusion 45) of the opening covering member 40 is the same as the inner diameter R1 of the cylindrical portion 32 of the sleeve member 31, and there is a step between them. Not happening. Therefore, the entire inner diameter R2 of the annular plate portion 41 can be used as the movable range of the power cable PC, and unnecessary refraction of the power cable PC can be suppressed. Further, the corner portion P2 of the annular protrusion 45 of the opening covering member 40 has a rounded chamfered shape. Therefore, when the power cable PC comes into contact with the corner portion P2 of the annular protrusion 45, it can be brought into surface contact, and the power cable PC comes into contact with the corner portion P2 of the annular protrusion 45 in a very narrow area. Compared with the case, the wear of the power cable PC can be suppressed.

By the way, in the above embodiment, since the opening covering member 40 is fixed to the housing portion 25 by the bolt B2, the head of the bolt B2 protrudes from the annular plate portion 41 of the opening covering member 40 as shown in FIG. , The head of this bolt B2 may come into contact with the power cable PC. In this respect, in the above embodiment, each bolt hole 42 is provided on the annular plate portion 41 of the opening covering member 40 on the radial side of the virtual circle C. Therefore, as compared with the case where the bolt hole 42 is provided inside the annular plate portion 41 in the radial direction, the effect of contacting the power cable PC with the head of the bolt B2 inserted into the bolt hole 42 is affected. It will be easier to avoid.

Further, since the opening covering member 40 is fixed to the housing portion 25 by the bolt B2, the opening covering member 40 can be removed from the housing portion 25 by removing the bolt B2. Therefore, even if the surface roughness of the opening covering member 40 becomes large or the dirt becomes conspicuous due to deterioration with time or the like, it can be replaced with a new opening covering member 40.

(Change example)
The above embodiment can be changed as follows.
The industrial robot to which the opening covering member 40 and the configuration related thereto are applied is not limited to the articulated welding robot of the above embodiment. For example, it may be applied to a welding robot having a turning axis of 6 or less and a welding robot having 8 or more axes. Further, the robot may be a robot in which another tool is fixed to the work tool fixing member C8 instead of the welding torch C9. For example, it may be a transfer robot in which a manipulator that grips an object is fixed to a work tool fixing member C8.

-The material of the fourth arm C6 and the fifth arm C7 does not have to be an aluminum alloy. For example, the fourth arm C6 and the fifth arm C7 may be made of a metal such as an iron-based alloy, or may be made of a synthetic resin.

-Instead of or in addition to the housing portion 25 in the fifth arm C7, an opening covering member may be applied to another arm. For example, in the above embodiment, an opening is provided in the housing of the first arm C3 and the housing of the second arm C4, and the power cable PC is inserted through the opening. An opening covering member may be applied to the opening edge of the opening of the housing of the first arm C3 or the housing of the second arm C4. Further, if the other members also have an opening through which the power cable PC is inserted, an opening covering member may be applied to the opening edge of the opening.

-The power cable PC may have other functions as well as supplying electric power to the welding torch C9. For example, in addition to the power supply line for supplying electric power to the welding torch C9, a multi-axis cable incorporating a control signal line or the like for controlling the turning operation of each arm may be used. Further, inside the power cable PC, a welding wire or a pipe (hose) for supplying gas used at the time of welding may be provided. In particular, when the welding wire is inserted inside the power cable PC, if the power cable PC moves behind the turning operation of each arm or the like, the tip position of the welding wire is aligned and then shifted to the tip position of the welding wire. May not be possible to achieve precise welding. Therefore, it is preferable to apply the configuration related to the opening covering member 40 or the like to a welding robot in which a welding wire is inserted inside the power cable PC.

In the opening covering member 40, the chamfer shape of the corner portion P1 on the inner peripheral edge of the ring plate portion 41 and the corner portion P2 on the protruding tip side of the ring protrusion 45 is not limited to the round chamfer shape. For example, the corner portion P1 or the corner portion P2 may be chamfered diagonally in a straight line.

-It is not necessary to chamfer the corner portion P1 of the inner peripheral edge of the annular plate portion 41 and the corner portion P2 on the protruding tip side of the annular protrusion portion 45. For example, the material of the opening covering member 40 is softer than the material of the outer skin of the power cable PC, and even if the power cable PC comes into contact with the corners P1 and P2 of the opening covering member 40, the influence is small. For example, the harmful effect is small even if the chamfered shape is not used.

The inner diameter R2 of the annular plate portion 41 and the annular protrusion 45 of the opening covering member 40 does not have to be the same as the inner diameter R1 of the cylindrical portion 32 of the sleeve member 31. That is, a step may be formed between the opening covering member 40 and the sleeve member 31 in the through hole 26 of the housing portion 25. Similar to the above-described modification, if the material of the outer skin of the power cable PC is relatively hard, even if a step is generated between the opening covering member 40 and the sleeve member 31, the harmful effect is small.

The opening covering member 40 may be made of a synthetic resin other than polybutylene terephthalate. Further, the opening covering member 40 does not necessarily have to be made of synthetic resin. For example, the opening covering member 40 is made of the same aluminum alloy as the housing portion 25 of the fifth arm C7, and the surface of the opening covering member 40 made of the aluminum alloy is polished to form the surface of the opening covering member 40. The roughness may be smaller than the outer surface of the housing portion 25.

-In the annular plate portion 41 of the opening covering member 40, the bolt hole 42 may be provided radially inside the virtual circle C. For example, if the circumference of the bolt hole 42 is recessed with respect to other parts and the head of the bolt B2 is accommodated in the recess, the bolt may be placed at any position. There is little risk that the power cable PC will come into contact with the head of B2.

The shape of the opening covering member 40 does not matter as long as it can cover the opening edge of the first opening 26a in the housing portion 25. For example, the annular protrusion 45 may be omitted. Further, for example, if the housing portion 25 has a square tubular shape and the first opening 26a has a rectangular shape in a plan view, the opening covering member 40 may have a square ring shape as a whole.

The mode of fixing the opening covering member 40 to the housing portion 25 is not limited to the bolt B2. For example, it may be fixed with an adhesive. Further, for example, the diameter R3 at the outer outer edge of the annular protrusion 45 of the opening covering member 40 in the radial direction is slightly larger than the inner diameter of the first opening 26a of the housing portion 25, and the annular protrusion 45 is formed. The opening covering member 40 may be fixed to the housing portion 25 by being fitted into the first opening portion 26a of the housing portion 25 while being elastically deformed.

The surface roughness of the inner peripheral surface of the sleeve member 31 does not have to be smaller than the surface roughness of the outer surface of the housing portion 25. That is, the inner peripheral surface of the sleeve member 31 does not have to be polished.

-The material of the sleeve member 31 does not matter. For example, the sleeve member 31 may be made of a synthetic resin (polybutylene terephthalate) in the same manner as the opening covering member 40. A force acting inward in the radial direction from the seal member 35 acts on the cylindrical portion 32 of the sleeve member 31. When the seal member 35 is interposed between the cylindrical portion 32 of the sleeve member 31 and the inner peripheral surface 25a of the housing portion 25, the sleeve member 31 is made of a material that is not excessively deformed by this radial inward force. Need to be configured.

The sleeve member 31 that covers the inner peripheral surface 25a of the housing portion 25 may be omitted. When the sleeve member 31 is omitted, for example, if the inner peripheral surface 25a of the housing portion 25 is polished to reduce the surface roughness, the resistance when the power cable PC slides with respect to the inner peripheral surface 25a is reduced. it can. When the sleeve member 31 is omitted, an opening covering member may be provided at the opening edge of the second opening 26b in the housing portion 25.

(Addition of technical thought)
The technical idea that can be derived from the above embodiment and modification is added below.
-The annular plate portion of the opening covering member is provided with a bolt hole through which a bolt for fixing the opening covering member to the housing portion is inserted, and the bolt hole has a radial width of the annular plate portion. It is provided radially outside the center.

C1 ... base, C2 ... swivel, C3 ... 1st arm, C4 ... 2nd arm, C5 ... 3rd arm, C6 ... 4th arm, C7 ... 5th arm, C8 ... work tool fixing member, C9 ... welding Torch, J1 ... 1st turning axis, J2 ... 2nd turning axis, J3 ... 3rd turning axis, J4 ... 4th turning axis, J5 ... 5th turning axis, J6 ... 6th turning axis, J7 ... 7th swivel axis, PC ... power cable, B1 ... bolt, B2 ... bolt, P1 ... corner, P2 ... corner, R1 ... inner diameter, R2 ... inner diameter, R3 ... diameter, 11 ... arm body, 11a ... Protruding part, 21 ... Rotating part, 21a ... Recessed part, 22 ... Connecting part, 25 ... Housing part, 25a ... Inner peripheral surface, 26 ... Through hole, 26a ... First opening, 26b ... Second opening, 31 ... Sleeve member, 32 ... Cylindrical part, 33 ... Flange part, 35 ... Seal member, 40 ... Opening covering member, 41 ... Ring plate part, 42 ... Bolt hole, 45 ... Ring protrusion.

Claims (4)

An industrial robot including a fixed-side member, a swivel member rotatably connected to the fixed-side member, and a power cable for supplying electric power to a work tool.
At least one of the fixed-side member and the swivel member includes a housing portion provided with an opening through which the power cable is inserted.
An opening covering member having a surface roughness smaller than that of the outer surface of the housing portion is provided on the opening edge of the opening .
A sleeve member that covers the inner peripheral surface is attached to the inner peripheral surface of the housing portion.
An industrial robot characterized in that the opening covering member is made of a material softer than the material constituting the sleeve member . The industrial robot according to claim 1, wherein the opening covering member is made of a material softer than the material constituting the housing portion. The housing portion has a cylindrical shape.
The opening covering member is annular and has an annular shape.
The sleeve member has a cylindrical shape that covers the inner peripheral surface of the housing portion .
The industrial robot according to claim 1 or 2, wherein the inner diameter of the opening covering member and the inner diameter of the sleeve member are the same. The opening covering member includes a ring plate-shaped ring plate portion that covers an end surface of the housing portion on either side in the axial direction, and a ring plate portion that projects axially from the ring plate portion and is inside the ring plate portion. With an annular protrusion extending along the periphery,
The industrial robot according to claim 3, wherein the corner portion on the protruding tip side of the annular protrusion portion and inside in the radial direction has a chamfered shape.

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